Primary study on physical properties of some vegetable seeds

2014 IEEE Workshop on Advanced Research and Technology in Industry Applications (WARTIA) Pub Date : 2014-12-08 DOI:10.1109/WARTIA.2014.6976394

M. Tang, Jvmu Zhu, Jian Ren, X. Shi, Jin-guang Peng

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Abstract

China is the largest producer and consumer of vegetables in the world. Manual indenting and sowing of small vegetable seeds in plug trays is a slow and labor-intensive operation. Therefore, seeding operation of plug trays should be mechanized to increase the capacity of the rapidly expanding nursery industry. A tray precision seeding machine is one of the key devices used in industrialized plug seedling production. To reduce the miss-seeding and reseeding rates of seeders, we tested main varieties of different vegetables, such as cucumber, eggplant, pepper, and tomato, by obtaining their seeds (grain diameter ≤7mm) as materials. The physical characteristics (geometrical size, 1000-kernel mass, rest angle, and sliding friction angle) and aerodynamic characteristic (floating speed) of these vegetables were measured. The results showed that the average geometrical sizes (length, width, and thickness) were 9.00, 3.87, and 1.42 mm (cucumber); 3.07, 2.63, and 0.92 mm (eggplant); 3.96, 3.40, and 0.76 mm (pepper); and 3.23, 2.36, and 0.63 mm (tomato). One-thousand kernel mass values were 26.49, 4.27, 5.94, and 2.80 g, respectively. Rest angles were 19.36°, 19.83°, 20.56°, and 26.24°, respectively. Sliding friction angles (stainless steel plate) were 21.80°, 24.95°, 25.66°, and 31.82°, respectively. Finally, floating speed rates were 6.38, 5.02, 4.24, and 3.78m/s, respectively.

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几种蔬菜种子物理性质的初步研究

中国是世界上最大的蔬菜生产国和消费国。人工压痕和播种小蔬菜种子在塞盘是一个缓慢和劳动密集型的操作。因此，塞盘播种操作应机械化，以增加迅速扩大苗圃产业的能力。盘式精密播种机是工业化塞苗生产的关键设备之一。为了减少播种者的误播率和补播率，我们对黄瓜、茄子、辣椒、番茄等主要蔬菜品种进行了试验，取其种子(粒径≤7mm)作为材料。测定了这些蔬菜的物理特性(几何尺寸、千粒质量、静止角、滑动摩擦角)和气动特性(漂浮速度)。结果表明:黄瓜的平均几何尺寸(长、宽、厚)分别为9.00、3.87和1.42 mm;3.07、2.63、0.92毫米(茄子);3.96、3.40和0.76毫米(胡椒);3.23、2.36和0.63毫米(番茄)。千粒重分别为26.49、4.27、5.94和2.80 g。休息角分别为19.36°、19.83°、20.56°和26.24°。滑动摩擦角(不锈钢板)分别为21.80°、24.95°、25.66°和31.82°。最后，浮动速度分别为6.38、5.02、4.24和3.78m/s。

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2014 IEEE Workshop on Advanced Research and Technology in Industry Applications (WARTIA)

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